Ejemplo n.º 1
0
/*
 * Compute
 *   C = C*diag(D)      flags & RIGHT == true
 *   C = diag(D)*C      flags & LEFT  == true
 *
 * Arguments
 *   C     M-by-N matrix if flags&RIGHT == true or N-by-M matrix if flags&LEFT == true
 *
 *   D     N element column or row vector or N-by-N matrix
 *
 *   flags Indicator bits, LEFT or RIGHT
 */
func MultDiag(C, D *matrix.FloatMatrix, flags Flags) {
	var c, d0 matrix.FloatMatrix
	if D.Cols() == 1 {
		// diagonal is column vector
		switch flags & (LEFT | RIGHT) {
		case LEFT:
			// scale rows; for each column element-wise multiply with D-vector
			for k := 0; k < C.Cols(); k++ {
				C.SubMatrix(&c, 0, k, C.Rows(), 1)
				c.Mul(D)
			}
		case RIGHT:
			// scale columns
			for k := 0; k < C.Cols(); k++ {
				C.SubMatrix(&c, 0, k, C.Rows(), 1)
				// scale the column
				c.Scale(D.GetAt(k, 0))
			}
		}
	} else {
		// diagonal is row vector
		var d *matrix.FloatMatrix
		if D.Rows() == 1 {
			d = D
		} else {
			D.SubMatrix(&d0, 0, 0, 1, D.Cols(), D.LeadingIndex()+1)
			d = &d0
		}
		switch flags & (LEFT | RIGHT) {
		case LEFT:
			for k := 0; k < C.Rows(); k++ {
				C.SubMatrix(&c, k, 0, 1, C.Cols())
				// scale the row
				c.Scale(d.GetAt(0, k))
			}
		case RIGHT:
			// scale columns
			for k := 0; k < C.Cols(); k++ {
				C.SubMatrix(&c, 0, k, C.Rows(), 1)
				// scale the column
				c.Scale(d.GetAt(0, k))
			}
		}
	}
}